US2870254A - Telegraph system - Google Patents

Telegraph system Download PDF

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Publication number
US2870254A
US2870254A US518526A US51852655A US2870254A US 2870254 A US2870254 A US 2870254A US 518526 A US518526 A US 518526A US 51852655 A US51852655 A US 51852655A US 2870254 A US2870254 A US 2870254A
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United States
Prior art keywords
contact
relay
pattern
circuit
over
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US518526A
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English (en)
Inventor
Ransom D Slayton
Raymond R Simessaert
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AT&T Teletype Corp
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Teletype Corp
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Priority to BE549048D priority Critical patent/BE549048A/xx
Priority to NL107923D priority patent/NL107923C/xx
Application filed by Teletype Corp filed Critical Teletype Corp
Priority to US518526A priority patent/US2870254A/en
Priority to GB16246/56A priority patent/GB803716A/en
Priority to FR1153790D priority patent/FR1153790A/fr
Priority to DET12387A priority patent/DE1064552B/de
Application granted granted Critical
Publication of US2870254A publication Critical patent/US2870254A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L43/00Arrangements for monitoring or testing data switching networks
    • H04L43/50Testing arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/004Arrangements for detecting or preventing errors in the information received by using forward error control

Definitions

  • This invention relates to automatic printing telegraph systems and more particularly to means for assuringJ automatically continuity of telegraph circuit operation.
  • the principal object of the invention is to provide a monitoring system that provides a constant check of both circuit continuity and functioning of terminal apparatus.
  • Another object of the invention is to provide a timed interval monitor' control system for automatically checking circuit continuity under the control of a test character periodically inserted at the transmitter and deleted at the receiver.
  • Another object of the invention is to provide in duplex telegraph circuits automatic synchronized timers at both terminals which would transmit and detect idle pattern signals at periodic intervals when the channel is idle.
  • a further object of the invention is to provide facilities whereby, during the sensing of the pattern at the receiving station, the timer will blind the receiving printer or reperforator so that the pattern character will not be recorded.
  • a still further object of the invention is to provide a monitoring system which will not change the message character count, or destroy the message intelligence, or show evidence in a message that a check has been made.
  • Another object of the invention is to provide a circuit assurance system wherein continuity is assured during both idle and busy periods.
  • Fig. 1 is a schematic representation of the basic system forming the subject matter of the present invention.
  • Figs. 2 and 3 represent a schematic circuit diagram of the present invention.
  • each terminal is equipped with units having control over both sending and receiving apparatus.
  • a two-way or full duplex line is contemplated which provides each terminal station with a receiving channel and a transmitting channel' over which impulses may be simultaneously transmitted as is the usual practice with full duplex channels and well understood in the art.
  • the full duplex channel is illustrated by two full metallic oneway telegraph circuits. This has been done so that the invention may be more readily understood without the further complications of the various types of transmis sion systems commonly employed in telegraph networks for furnishing full duplex telegraph service between various stations and points'.
  • these lines or circuits may include any of the usual types of transmission circuits capable of providing this type of service. Since these transmission circuits operate in their usual and well-understood manner, they have not been shown in detail. Operation under various conditions is briefly as follows: Under normaltransmission conditions, tape is read by the west transmitter-dis- Appearance 2,870,254 Patented Jan. 20, 1959 'Y 2 of signals on the signal line 12 will keep automatic timers 13 from operating at both terminals, in a manner which will be described hereinafter in the detailed description of the circuit. The on-line selector 14 at the east terminal monitors received signals, and as long as these contain normal stop pulses, no further action will occur. Traic will be recorded by the east receiving printer (or reperforator) 15.
  • the timers 13 will, when traffic ceases, begin operation, measuring predetermined intervals such as for example, three seconds. After about two seconds, the timer 13 at the west ter-l minal will open the transmitter control circuit so that if new tape were subsequently puty in the transmitter-distributor, it cannot be read until after a test pattern is sent. After three seconds, the westk pattern distributor 16 will be energized for one cycle, sending the Vtest pattern character. The appearance of the test character timer will'be reset or restored to normal'by the pattern,
  • the control panel 17 circuitry will be released, causing the next west bound pattern to be a test signal.
  • the east transmitter control circuit will then be reclosed, allowing west bound traffic to resume. Reception of the test signal at the west terminal will in turn allow the re-v leasing of its transmitter control'circuit, thus permitting the stopped .tralic to also restart. Failure' of the east bound circuit to the steady spacing or open line condition would provide asimilar stopping action (loss of stop pulses) as above, which will continue until the trouble is cleared. ll-Iowever, failure to marking will cause a slightly diferent sequence. Now, no signals will be received for. an extended interval, and the eastA timer will not be recycled after three seconds.
  • the automatic timer 13 at the West terminal will also function to cause the transmission of test patterns at approximately thirty second intervals, through the interruption of the transmitter control circuit for a three second interval. Reception of said pattern will reset the timer 13 at the east terminal, while failure of the pattern to appear after thirty-tive or forty seconds will cause the associated eastlterminal control panel 17 circuits to send the periodic stop pattern to the west terminal.
  • Certain alarm circuits are contemplated in the present system, located in an alarm panel 18.
  • the sending equipment at a terminal station will have circuitry to detect the failure of a transmitter-distributor to start when its control circuit is closed, or the failure of the pattern transmitter to generate start-stop signals when it should (for example, motor off, shorted contacts, etc.).
  • the timer will record a period of substantially live or six seconds without resetting (restoring), and then sound the alarm.
  • the failure to insert the occasional test pattern during busy conditions will send a similar alarm after about forty seconds.
  • a slow-torelease relay will detect an open line condition and sound a similar alarm.
  • alarms will be sounded by the reception of a stop pattern if the pattern is errored, 0r if the pattern selecting equipment fails to operate.
  • the failure of the printer or reperforator to cycle or feed paper or tape, a ribbon jam, or an out-of-tape condition, would also sound alarms. If desired, these latter alarms can also cause transmission to be stopped at the vdistant terminal until the trouble is cleared.
  • a manual transmitter control switch 19 is also provided. Under conditions of poor reception, or when replacing paper, tape, or ribbon at a receiving station, it may be desirable to stop the distant terminals transmission.
  • the manual switch 19 thus serves, when operated, to cause outbound transmission to be interrupted for the sending of one or more stop patterns, following which, if desired, transmission may resume. When the difficulty is corrected, the switch 19 will be restored to normal, after interrupting traic long enough to send a test pattern that will restart the distant station.
  • pairs of permutation codes which are complementary, such as R and Y, or G and S, will be l used.
  • the characters Blank, T, O, M, V And Letters, which could occur as a result of a short line break, should not be used for a test pattern, but T, O, M and V may be used for a stop pattern.
  • Diiferent circuits should have different pairs of permutations, so that an error in patching at a switchboard, or in radio tuning, would be immediately detected.
  • the tape transmitter ll (transminer-distributor) comprises a set of tape sensing pins 21 (five or six, for example), a tape-out pin 22, a set of transmitting contacts 23, a clutch magnet 24 and a taut tape switch arm 25.
  • the transmitter 11 may be of the type disclosed in United States Patent No. 2,296,- 845.
  • a tape 26 is shown introduced in the transmitter 11.
  • a contact 2S attached to the tape-out pin 22 is closed, and with the tape 26 in a slack condition a contact 29 attached to the taut tape-arm 25 is also closed, thereby completing an energizing circuit for the clutch magnet 24 extending from positive battery 3l, over conductor 32, through the winding of magnet 24, over conductor 33, over taut tape switch arm 25, through taut tape contact 29 (now closed), through tape-out contact 2S (now closed), over conductor 34, through pause timing contact ⁇ 35 (now (itl ,4 closed), over conductor 36, through the winding of transmitter failure relay 37, over conductor 38, through busy timing contact 39 (now closed), over conductor 41 to junction 42, then through contact 43 (now closed), of send-stop relay 44, over conductor 45, through contact 416 (now closed) and switch arm 47 of the manual transmitter control switch 19, over conductor 48, and through contact 49 (now closed) of receive-stop relay 5l to negative battery.
  • the line relay 63 through its contact 64, functions to impress signals, corresponding to the received signals, on the conductor 65, to thereby energize the selector magnet 66 of the on-line selector 14 over an obvious circuit, and also the selector magnet 67 of the printer (or reperforator) 15 over a circuit extending from positive battery, through the winding of selector magnet 67, over conductor 63, through contact 69 (now closed) of blinding or suppression relay 71, over conductor 65, and through contact 64 (when closed) to negative battery.
  • the line relay 53 is provided with an armature 72 operable between a pair of contacts 73 and 74.
  • the contact 73 is included in the circuit of a timer reset magnet 75, while the contact 74 is included in the circuit of an open line alarm relay 76.
  • the contact 73 will be closed to effect the energization of the reset magnet 75 over an obvious circuit.
  • the timer comprising cams 77, 78, 79 and S1 mounted on shaft 32 is reset to zero.
  • the contact 73 will remain open, and the magnet 75 will remain de-energized thereby permitting the timer to operate, as will presently appear.
  • the operation of the sending terminal of the system during idle periods will now be described. With no tape in the transmitter 11, transmission ceases.
  • the last spacing impulse delivered by the transmitter 11 to the line relay 58 caused the timer reset magnet 75 (hereinafter called the pause timer) to be energized, resetting or restoring the timer to its zero position.
  • the timer cam rotation begins, and after approximately two seconds (the time interval may differ, according to the desired performance of the system) the contact 35 associated with cam 79 is opened to break the circuit previously traced for energizing the clutch magnet 24 of transmitter 11 thereby stopping transmission therefrom.
  • the contact 83 associated with cam 7 a is closed, thereby energizing the clutch magnet 34 of the pattern distributor 16 over a circuit extending from positive battery 85, over conductor 86, through the winding of magnet 84, over conductor 87, through the contact 83 (while closed) and over conductor 88 to negative battery 89.
  • the pattern distributor 16 proceeds to transmit, through its transmitting contacts 91, a test pattern character in accordance with the permutation set up in the R contacts 92, or the Y contacts 93, of the send-stop relay 44. Accordingly, the signal ,line
  • the transmitter clutch circuit (for clutch magnet 24) is reclosed at contact 35 (associated with cam 79), but if no traic has appeared the circuit for said magnet 24 is open at the taut-tape contact 29 or the tape-out contact 28 so that the pattern cycle is repeated. This condition continues until traic is again available.
  • patterns set up by the send-stop or pattern controlling relay 44 consist of complementary pairs of permutations, such as the R and Y. One of said signals in each pair being the test signal, and the other being the stop signal.
  • a busy timer cam 97 opens the contact 39 to open the circuit for the transmitter clutch magnet 24 long enough to permit the transmission of a circuit testing pattern character through the R contacts 92 of relay 44, after which traflic is then resumed and continues under these same conditions (controlled by the busy timer cam 97) until the tape 26 is expended (that is, the supply of tape is exhausted, opening contact 28, or taut tape arm 25 causes the opening of contact 29).
  • the busy timer is shown without a resetting or restoring mechanism, since it may rotate continuously at a predetermined speed, for example, to close contact 35 once in each thirty seconds. Alternately it could have a clutch magnet similar to magnet 75 of the pause timer and be reset at each pause in transmission at the thirty second intervals timed by itself, thereby permitting a full period of transmission before the first pause would occur.
  • the transmitter portion of the present system operates in the following manner: If a failure is recorded by the the local receiving equipment, the receive-failure relay 98 in the receiving portion of the system according tothe inven tion, will operate as will hereinafter appear, either momentarily or on a continuous basis, depending upon the type of failure. This causes contacts 99 and 101 to close. In response to the closure of contact 99, an energizing circuit for the send-stop relay 44 is completed from positive battery 102, through the winding of relay 44, over conductors 103, 104 and 105, and through the contact 99 (now closed) to negative battery 106.
  • Relay 44 locks up, if the impulse is momentary only, over a circuit extending from negative battery 102, through the winding of relay 44, over conductors 103, 104 and 107, through locking contact 108 (now closed) of relay 44, over conductor 109, through normally closed contact 110 (now closed) of a receive-test relay 111, over conductor 112 to negative battery 106.
  • the send-stop relay 44 thus remains operated until both the receive-failure relay 98 is released and the receive-test relay 111 is subsequently momentarily operated, as will hereinafter appear, opening the locking circuit of relay 44.
  • relay 44 causes its contact 43 to open to break the energizing circuit, previously described, for the transmitter clutch magnet 24, thereby stopping the operation of the transmitter 11, and initiating the timing intervals previously mentioned. During this interval the contacts 93 of the relay 44 are closed thereby controlling the transmission of a stop pattern, comprising the Y code combination, by the pattern distributor 16; and this pattern is repeated at frequent intervals until the sendstop relay 44 is released, as will hereinafter appear, whereupon traic transmission is resumed.
  • reception of a stop pattern (Y code combination) from the distant station will cause the receive-stop relay 51 to become energized, as will presently appear, locking itself up through its own locking contact 113 and a normally closed contact 114 on the receive-test relay 111.
  • This locking circuit extends from positive battery 115, through the winding of relay 51, through the locking contact 113 (now closed), over a conductor 116, through contact 114 (still closed), and over conductor 112 to negative battery 106.
  • the receive-test relay 111 may have become de-energized, thereby opening its contacts 110 and releasing the send-stop relay 44 and re-establishing the circuit, previously described, for energizing the transmitter clutch magnet 24.
  • the locking circuit for relay 44 also extends through contact 108, over conductor 109, through junction 27, over conductor 56, to contacts 62 (now closed) on distributor 16, thence to negative battery. The contacts 62 open at the end of the pattern signal, only then allowing relay 44 to be released.
  • the receive-stop relay 51 opens its contact 49, therebyv breaking the energizing circuit for the transmitter clutch magnet 24, stopping trafiic transmission andinitiating time intervals.
  • the pattern sent in this instance is the one set up by the closure of lcontacts 92 of the send-stop relay 44, and is the test character, unless the receive-failure relay 98 has previously been or becomes operated. As long as a stop signal continues to be received, transmission will be withheld, and the test pattern codes will be transmitted.
  • the normally closed contacts 114 may be disas- --sociated from said relay and be instead part of a'manf 'ually controlled switch or push button.
  • the sta- I tion attendant would be required to operate the switch or push button, opening contacts 114 each time relay 51 required releasing. This may be advantageous in those .instances wherein it is desirable to back up the tape 26 .in transmitter 11 to its initial position before resuming transmission because the circuit failure resulting in. the :reception of the stop signal was of a type to cause the loss of part of the message recorded in the tape.
  • the manual transmitter control switch 19, previously .-f-:alluded to, permits several modes of operation.
  • the circuits are as described above,
  • the circuit for the transmitter clutch magnet 24 is opened at contact 46, thereby preventing the transmission of traflic and causing the sending of a series of test or stop patterns in accordance with the position of the relay 44.
  • a lamp 117 is lighted over the circuit extending from negative battery 118, over switch arm 119, through serially connected contacts 121, through lamp 117 to positive battery.
  • the relay 44 is also energized continuously, causing the transmission of a series of stop ('r"" code) patterns over a circuit extending from negative battery 11S, over conductor 122, over switch arm 123, through contact 124, over conductors 125 and 103, through winding of relay 44 to positive battery.
  • the send-stop relay 44 will likewise be energized over a circuit extending from negative battery 11S, over conductor 122, over switch arm 123, through contact 126, over conductors 127, 125 and 103, through winding of relay 44 to positive battery.
  • the contact 43 in the previously described energizing circuit for transmitter clutch magnet 24 will now be opened. However, said contacts 43 will be by-passed so that traffic can be transmitted from the local transmitter 11 because the energizing circuit for transmitter clutch magnet 24 will now extend from negative battery, through contact 49 (now closed), over conductor 48, over switch arm 47, through contact 129 over conductors 131 and 41, and over the previously described circuit to positive battery 31.
  • the stop pattern is inserted in the trathc at the thirty-second intervals by the local busy timer, exemplified by cam 97, if the channel is busy. Whenever the channel becomes idle, the stop pattern is sent at the three second intervals under the control of the pause timer cams 7S and 79.
  • the manual transmitter control switch 47 should be operated by stages, permitting one or more test or l stop patterns to be sent, as the case may be, before advancing the switch to either end position. 1n the event of reception of a stop pattern from the distant station, relay 51 will be operated to open contact 49, thereby instantly stopping any outbound trahie transmission.
  • Alarm circuits are provided at the sending terminal for the protection of all units in the sending equipment, and cover most of the possible trouble conditions. lf the transmitter 11 fails to start sending when the circuit for the clutch magnet 24 is closed, the transmitterfailure relay 37 will operate after a short delay (slowtooperate type), closing a circuit from the alarm contact 132 associated with cam 81, over a circuit extending from negative battery, through Contact 132 (when closed by cam 81), over conductor 133, through contact 134 (now closed) of relay 37, over conductors 155, 136 and 137, through contact 138 (when closed), through switch arm 139, and through operating winding of bell 141 to positive battery.
  • short delay slowtooperate type
  • the circuit includes a chopper 142 which causes the gong to ring periodically, thus calling the attendant to the apparatus immediately in the event the alarm circuit remains closed continuously.
  • a red lamp 143 is included in an obvious circuit in the alarm circuitry, so that a visible signal is also provided.
  • An alarm cut-off switch 144 in the circuit permits the silencing of the gong, by opening contacts 139, while a case of trouble is being cleared. When the switch 144 is in the off-normal position, the red light 143 remains lit as a warning.
  • the timer With normal traic going out, the timer, exemplified by magnet 75, resets to zero position continually, so that the contact 132 at cam 81 is usually-not closed. However, should the circuit for transmitter clutch 24 close after the timer cam 81 has rotated for approximately a half second, at the time the cam contact 132 closes, transmission would normally immediately begin. The timer would almost instantly reset to zero, opening the circuit at contact 132 before the slow-to-operate relay 37 (transmitter-failure relay) would have time to pull up and close the alarm circuit at contact 134.
  • cam 77 rotates for another second and closes its contact 145 to complete an alarm circuit extending from negative battery, through contact 145 (when closed), over conductors 146, 136 and 137, through contact 138 (when closed), through switch arm 139 and through bell 141 to positive battery.
  • the cams 77, 78, 79 and 81 will then cease rotating, being restrained by a mechanical stop (not shown) and must be manually reset to re-initiate transmission.
  • contact 147 closes to complete an alarm circuit extending from negative battery 148, through contact 147, over conductors 149 and 137, through contact 138 (when closed) over switch arm 139 and through bell 141 to positive battery.
  • Fig. 3 The elements of the present system which are provided in the receiving portions of the west and east terminals are shown in Fig. 3 and a part of Fig. 2.
  • these consist of a traftc recording reperforator or printer 15, a pattern detecting on-line selector 14, an automatic timer exemplitied by magnet 151, blinding circuits for the reperforator or printer exemplified by relay 71, receiving relays 51, 98 and 111, and miscellaneous alarm circuits.
  • the line relay 63 delivers, through contact 64, received signals to the on-line selector magnet 66, and also to the printer unit 15, through the contact 69 of blinding relay 71.
  • the timer in Fig. 3 is exemplified by the reset magnet 151 and the timing cams 152 and 153 mounted on a shaft 154.
  • the last character received over the line by the selector 14 causes the timer to be reset to the zero position through the periodic closure of a Contact 15S by cam 156 (attached to selector cam, not shown) over an obvious circuit approximately in unison with the timer at the sending station.
  • the timer cam 152 rotates, and after the elapse of an interval of approximately two and one-half seconds during which the -distant transmitter 11 could have started to send, cam 152 closes its contact 157.
  • Relay 71 operates to disconnect the reperforator or printer 15 from the receiving circuit by the opening of contact 69 therein.
  • a make before break contact is associated with the relay 71, whereby the Contact 162 is closed before the contact 69 is opened, so that there will be no interruption in the steady marking signal to the reperforator or printer 1S.
  • the pattern character is received from thex distant station.
  • the 0u-, line selector 14 operates cyclically, causing the timer to aardgas be reset by closing contact 155 thereby releasing the blinding relay 71 by opening the contact 157 and permitting traic to be recorded on printer 15, if such is subsequently received over the circuit.
  • the timing .of contact 155 is such that the pattern character will be completely received by. selector 14 before blinding relay 71 releases, so that the pattern character will not appear in traic copy recorded by printer or perforator 15. If no traffic appears, the cycle of alternate blinding and unblinding takes place continuously, as long as the circuit is idle.
  • the on-line selector 14 is provided with a set of reading contacts 163, so connected or tied in series as to complete an operating circuit for the receive-test relay 111 in response to the reception of the test pattern (R code, in the present system). Similarly, a set of contacts 164 is also provided, which are so connected in series as to complete an operating circuit for the receivestop relay 51 in response to the reception of the stop pattern (Y code).
  • the on-line selector 14 records the permutation of the pattern characters in its contacts 163 or 164, which are set up or closed shortly after the nal impulse of the character arrives. The selection which is set up on the contacts 163 or 164 is then read out by the contact 165 associated with timing carn 166, which contact 165 is in series with the contact 157 associated with timer cam 152.
  • a circuit for the energization of receive-test relay 111 is completed from positive battery, through vthe winding of relay 111 (Fig. 2), over conductor 167 (Figs. 2 and 3), through contacts 163 (when set for R code), over conductor 168, through timing contact 165 (when closed), over conductor 169, and through timing contact 157 (when closed) to negative battery.
  • the pattern received is a normal ⁇ stop signal (Y code, impulses l, 3 and 5 marking)
  • a circuit for the energization of receive-stop relay 51 is completed from positive battery, through the winding of relay 51 (Fig.
  • the online selector 14 during receipt of traic, also reads for lost or unduly shortened stop impulses in the start-stop signals. It also detects open signal line conditions.
  • Contact 172 associated with cam 173 is closed momentarily just after the selector cam (not shown) starts moving or rotating (in well known manner) upon the reception of astart impulse.
  • Contact 174 associated with cam 175 closes momentarily just after the No. 5 impulse is received, being driven by a separate clutch attached to the main selector shaft 176, which clutch is released near the center of the start-stop character selecting interval. Should a'stop impulse be seriously distorted or absent, cam 173 will close its Contact 172 immediately after reception of the No.
  • a circuit i for energizing the receive-failure relay 98 is thus conipleted from negative battery, through contact 174 (when closed), over'conductor 177, through contact 172 (when closed), over conductor 178 to junction 179, over conductor 181, and through the Winding of relay 98 (Fig. 2) to positive battery.
  • Relay 98 is thus energized long enough to operate and lock up the send-stop relay 44, over previously described circuits.
  • the contact 101 of relay 98 is closed to complete an alarm circuit extending from negative battery, through contact 101 (now closed),
  • the alarm gong will be sounded at least once, and the traffic in the outbound circuit will be interrupted, with a stop pattern being transmitted through contacts 93 (now closed) at the receiving station.
  • the distant sending station ceases transmission, it returns a pattern signal which is scrutinized by the selector circuits, thereby checking the reliability of the inbound traic path.
  • the reception of a good test pattern operates the receive-test relay 111, opening the locking circuit to send-stop relay 44, thus permitting the latter to be released, restoring the circuit immediately to normal operation in bothdirections.
  • the predetermined series circuits R and Y, through contacts 163 and 164 function to permit the energization of relays 51 or 111. It is noted that the contacts 163 and 164 are also so wired as to establish a circuit for relay 98, in the event the setting of contacts 163 and 164 is other than the R or Y code.
  • the selector contacts 163 and 164 close in one of the aforementioned other circuits which cause the operation of the receiVe-' failure relay 98 over a circuit extending from positive battery, through the winding of relay 98, over conductors 181, 183 and 184 to junction 185, then over conductor 186 and through any of the serially closed contacts 163 and 164 (other than the R or Y codes), over conductor 168, through contact 165 (when closed), over conductor 169 and through contact 157 (when closed), to negative battery. This stops transmission, sounds an alarm and tests circuit conditions, as previously described.
  • relay 111 thence over conductor 70 to conductor 181, through the coil of relay 98 to positive battery.
  • the timing of contact 138 is such that it closes after one of relays 51, 98, or 111 could have 'been operated by the closure of contact 165, but before said relays could again release.
  • the failure detecting circuit would be open at contact 120 or contact 80.
  • a good selection of relay 98, with both relays 51v and 111 released will result in reapplication of operating current to relay 98 at the time contact 130 closes after the pattern read-out.
  • the closure of contact during the reception of traic signals will not cause a failureto be recorded, since the circuit will be openat contact 157.
  • Timer cam 152 closes its contact 157 continuously during each such extended pause in trailic, so that if one pattern is missed the next will cause a normal reset without being recorded in the printer copy.
  • the blinding relay 71 does not break the receiving circuit at contact 162 during the reception of the pattern character, as noted above.
  • a busy timer cam 191 closes its contact 192 and operates the receivefailure relay 9S over a circuit extending from negative battery, through contact 192 (when closed), over conductors 193, 194, 189, 184, 183 and 131, through the Winding of relay 98 (Fig. 2) to positive battery.
  • the energization of relay 98 sounds an alarm and stops traflic, as previously described.
  • the busy timer cam 191 is reset to its zero position each time the blinding relay 71 operates at the time of reception of a pattern, through a circuit from negative battery, through normally open contact 180 on blinding relay 71, through busy timer" reset magnet 190 to positive battery.
  • the busy timer at the receiving station operates in unison with the busy timer at the sending station.
  • the receive-stop relay 51 is energized over the previously described circuit including reading contacts 164 and conductor 171, and locks up over the locking circuit extending from positive battery 115, through the winding of relay 51, through locking contact 113 (now closed), over conductor 116, through contact 114 (now closed), and over conductor 112 to negative battery 106 (Fig. 2).
  • a lamp 195 (Fig. 2) will be lighted (over an obvious circuit) through contact 113 but the alarm gong will not be sounded.
  • the local transmitter clutch circuit will be opened at contact 49, thus stopping the transmission of outbound trailic.
  • the receive-stop relay 51 remains locked up until a test pattern (R code) is subsequently received by the on-line selector 14 to Operate the receive-idle relay 111 to open contact 114 in the locking circuit of relay 51.
  • a test pattern R code
  • said push button or switch must be manually operated to release the relay 51, thereby permitting the attendant to reset the tape being sensed for transmission, should such be necessary. It should be noted'that if the stop pattern is being continually received, relay 51 will become almost immediately reoperated if an attempt is made to manually release it. With manual release of relay 51, a'connection may also be made to the gong 141, whereby operation of relay 51 will provide an audible alarm to the attendant that his attention is required.
  • the contact 202 could be closed to operate the receive-failure relay 98, as is shown by contact 200, which connects by conductor 170 through conductors 194, 139, 184, 183 and 181, to relay 93.
  • Contact 200 may also represent a contact that is closed upon the occurrence of a ribbon, or recording medium (paper or tape) jam in the receiving printer or reperforator.
  • This circuit originates at negative battery 106, passes over conductor 112, through contact 209 (now closed) of receive-test relay 111, over conductor 211 to terminal 212 of switch 160, over switch arm 213 (now closed) of said switch, over conductor 214 to junction 215, thence over conductor 203 to lamp 143, gong 141, and positive battery at each of the latter.
  • the timer cam 153 at the west terminal will rotate' until it closes its contact 187 to complete an aforede i3 scribed circuit to the receive-failure relay 98 at the west terminal.
  • West relay 98 will then'energize and close its contact 99 to complete a circuit for the sendstop relay 44 of the west terminal, which will close its contacts 93 to thereafter send stop pattern signals (Y code) through the west pattern distributor 16 to the east terminal.
  • the east terminal is conditioned for receiving, then its timing shafts begin to rotate, and the east on-line selector 14 is also conditioned for operation.
  • stop signals (Y code) by the east on-line selector 14 will prepare a circuit through reading contacts 164 for operating the east receive-stop relay 51 which will lock up and break, at its contact 49, the circuit for the east transmitter clutch magnet 24 (it it is not already opened at the No. 2 contact position of the east switch 47).
  • the east Lsend-stop relay 44 not having been energized through operation of the east received-failure relay will cause the transmission, through the east pattern transmitter i6 of test pattern signals (R code) from the east to the west terminal.
  • the west receive-test relay 111 will operate, thereby breaking the locking circuit, previously established through contact 11i), of the West sendstop relay 44, thereby causing test pattern signals ('R code) to be transmitted, through contacts 92 and pattern transmitter 16 of the west terminal, to the east terminal.
  • the circuits at both the east and west terminals are now ready for traffic, and the manual transmitter control switches 47, alarm cut-off switches 144 and blinding switches can now be restored to their normal positions (the switch arms of switch 47 being set in the No. l position).
  • the operating circuit, as previously described, for the transmitter clutch magnet 24 of the west transmitter 11 will now be closed, permitting tape transmission from said transmitter 11.
  • the switches can be manipulated in a variety of ways for the covering of different types of failure. For example, if the local receiving unit is in trouble, the distant oiice can be stopped by manipulation of the transmitter control switch 47 to either the No. 3 or the No. 4 positions. If the outbound circuit is known to be good, traflic can be sent, with the switch in position No. 4.- The distant oice can stop this traffic at any time by sending a stop pattern signal ("Y code), since the transmitter control circuit originates at the contact 49 of the freceive-stop relay 51. Similarly, if stray hits occur in either direction, tratic can be stopped and the circuits observed for a short interval.
  • the manual blinding switch 16@ may be operated to its off-normal position, it desired, while 'readjustment or replacement of the receiving circuit is being accomplished.
  • a signal transmission system comprising a plurality of stations, message sending means and message receiving means at each of said stations, a signal channel interconnecting said stations, each of said stations having pattern code signal sending means responsive to cessation of message transmission for automatically inserting and transmitting pattern code signals comprising one or the other of a complementary pair of permutation code ⁇ signals on said channel in response to predetermined channel conditions, receiving means for receiving said one or the other of said pattern code signals transmitted over said channel, said receiving means comprising sets of reading elements corresponding to said pattern code signals, control means at said stations effective to control said stations in accordance with the setting of said reading elements in response to the pattern code sig nal impressed on said channel, and alarm means to indicate the condition of said channel.
  • a signal transmissio-n system comprising a plurality of stations, message sending means and message receiving means at each of said stations, a signal channel interconnecting said stations, each of said stations having pattern code signal sending means responsive to cessation of message transmission for automatically inserting and transmitting pattern code signals comprising one or the other of a complementary pair of permutation code signals on said channel in response to predetermined channel conditions, receiving means comprising an online selector for receiving said pattern code signals transmitted over said channel, said von-line selector comprising sets of reading elements corresponding to said pattern' code signals, control means at said stations effective to control said stations in accordance with the setting of said reading elements in response to the pattern code signals impressed on said channel, and alarm means to indicate the conditionment of said channel.
  • a signal transmission system comprising a plurality of stations, message sending means and message receiving means at each of said stations,l a signal channel interconnecting said stations, pattern code signal sending means at each station, timing means associated with said pattern code signal sending means, said timing means responsive to cessation of message transmission from said message sending means for automatically initiating the transmission of pattern code Signals'comprising one or the other of a complementary pair of permutation code signals on said channel in response to predetermined channel conditions, receiving means for receiving said one or the other of said pattern code signals transmitted over said channel, said receiving means comprising sets of reading elements corresponding tosaid pattern code signals, control means at said stations elective to control said stations in accordance with the setting of said reading elements in response to the pattern code signals impressed on said channel, and means to indicate the conditionment of said channel.
  • a telegraph system a plurality of stations, a duplex transmission path extending between said stations,
  • a storage message transmitter located at each station a receiving apparatus located at each station, signal sending means at'each station, continually operating timing means associated with said signal sending means, said timing means adapted -to be reset cyclically to normal during message transmission, control cam means associated with said timing means, said control cam means effective in response to cessation of message transmission from said storage transmitter to automatically initiate the transmission of pattern code signals comprising one or the other of a complementary pair of permutation code signals on said path in response to predetermined conditions thereon, receiving means for receiving said one or the other of said pattern code signals transmitted over said path, said receiving means comprising sets of reading contacts connected serially setwise to correspond to said pattern code signals, and control relay means at said stations eiective to control said stations in accordance With the set of reading contacts selected in response to the pattern code signals impressed on said path, whereby the conditionment of said transmission path is indicated.
  • a telegraph system a plurality of stations, a dupleX transmission path extending between said stations, a storage message transmitter located atv each station, a receiving apparatus located at each station, signal sending means at each station, continually operating timing means associated with said signal sending means, said timing lmeans adapted to be reset cyclically to normal during of a complementary pair of permutation code signals on said path in response to predetermined conditions thereon, a second timer effete periodically at regularly recurring intervals irrespective of message transmission to automatically initiate operation of said signal sending means, receiving means for receiving said one or the other oi said pattern code signals transmitted over said path, said receiving means comprising sets of reading contacts connected serially setwise to correspond to said pattern code signals, and control relay means at said stations effective to control said stations in accordance with the set of reading contacts selected in response to the pattern code signals impressed on said path, whereby the conditionment of said transmission path is indicated.
  • a telegraph system a plurality of stations, a duplex transmission path extending between said stations7 a storage message transmitter located at each station, a receiving apparatus located at each station, signal sending means at each station, continually Voperating timing means associated with said signal sending means, said timing means adapted to be reset cyclically to normal during message transmission, control cam means associated with said tit-ning means, said control cam means effective in response to cessation of message transmission from said storage transmitter to automatically initiate the transmission of pattern code signals comprising one or the other of a complementary pair of permutation code signals on said path in response to predetermined conditions thereon, a second timer effective periodically at regularly recurring intervals irrespective of message transmission to automatically initiate operation of said signal sending means, receiving means for receiving said pattern code signals transmitted over said path, said receiving means comprising sets of reading contacts connected serially setwise to correspond to said pattern code signals, control relay means at said stations effective to control said stations in accordance with the setting of reading contacts selected in response to the pattern code signals impressed on said path, whereby the conditionr
  • a signal transmission system comprising a plurality of stations, message sending means and message receiving means at each of said stations, a signal channel interconnecting said stations, each of said stations having pattern controlling means for setting up pattern code signals comprising one or the other of a complementary pair of permutation code signals, whereby said one or the other of said complementary pair of permutation code signals are selectively impressed on said channel automatically in response to predetermined channel conditions, means operable independently of said message sending means for transmitting said pattern code signals, receiving means comprising an on-line selector for receiving said pattern code signals transmitted over said channel, said on-line selector including sets of reading elements corresponding to said pattern code signals, and control means at said stations effective to control said stations in accordance with the setting of said reading elements in response to the pattern code signals impressed on said channel.
  • a telegraph system a plurality of stations, a duplex transmission path extending between said stations, a storage message transmitter located at each station, a receiving apparatus also located at each station, each of said stations having pattern controlling means responsive to cessation of message transmission from said storage transmitter for setting up pattern code signals comprising one or the other of a complementary pair of permutation code signals, whereby said one or the other of said complementary pair of permutation code signals are selectively impressed on said transmission path automatically in response to predetermined transmission path conditions, means operable independently of' said message sending means for transmitting said pattern code signals, receiving means comprising an on-line selector for receiving said pattern code signals transmitted over said path, said on-line selector including sets of reading contacts connected serially setwise to correspond respectively to said complementary pair of permutation code signals, control means at said receiving station for controlling means effective under the control of said control means to alter the pattern code signal transmitted by said pattern code signal sending means.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Alarm Systems (AREA)
  • Testing Of Short-Circuits, Discontinuities, Leakage, Or Incorrect Line Connections (AREA)
US518526A 1955-06-28 1955-06-28 Telegraph system Expired - Lifetime US2870254A (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
BE549048D BE549048A (enrdf_load_stackoverflow) 1955-06-28
NL107923D NL107923C (enrdf_load_stackoverflow) 1955-06-28
US518526A US2870254A (en) 1955-06-28 1955-06-28 Telegraph system
GB16246/56A GB803716A (en) 1955-06-28 1956-05-25 Telegraph system
FR1153790D FR1153790A (fr) 1955-06-28 1956-06-12 Installation télégraphique
DET12387A DE1064552B (de) 1955-06-28 1956-06-28 Schaltungsanordnung zum UEberwachen von Fernleitungen in Fernschreibverbindungen mit Gegenverkehr

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US518526A US2870254A (en) 1955-06-28 1955-06-28 Telegraph system

Publications (1)

Publication Number Publication Date
US2870254A true US2870254A (en) 1959-01-20

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ID=24064307

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Application Number Title Priority Date Filing Date
US518526A Expired - Lifetime US2870254A (en) 1955-06-28 1955-06-28 Telegraph system

Country Status (6)

Country Link
US (1) US2870254A (enrdf_load_stackoverflow)
BE (1) BE549048A (enrdf_load_stackoverflow)
DE (1) DE1064552B (enrdf_load_stackoverflow)
FR (1) FR1153790A (enrdf_load_stackoverflow)
GB (1) GB803716A (enrdf_load_stackoverflow)
NL (1) NL107923C (enrdf_load_stackoverflow)

Cited By (5)

* Cited by examiner, † Cited by third party
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US2983780A (en) * 1956-11-06 1961-05-09 Siemens Ag Circuit arrangement for interconnecting teleprinter subscriber-networks
US3237180A (en) * 1963-03-18 1966-02-22 Specialties Dev Corp Indication repeating apparatus
US3245038A (en) * 1961-06-30 1966-04-05 Ibm Central to remote communication system with address modification for the remote stations
US3491337A (en) * 1966-12-05 1970-01-20 Scm Corp Coded message generator
US3510586A (en) * 1965-01-29 1970-05-05 Int Standard Electric Corp Data transmission systems

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Publication number Priority date Publication date Assignee Title
NL147302B (nl) * 1972-03-17 1975-09-15 Nederlanden Staat Stelsel voor synchrone data-transmissie tussen een abonnee en een eindcentrale.
DE2838816A1 (de) * 1978-09-06 1980-03-20 Tekade Felten & Guilleaume Schleifentest fuer datenuebertragungsstrecken
DE2852805A1 (de) * 1978-12-06 1980-06-12 Siemens Ag Verfahren und schaltungsanordnung zur messung der uebertragungseigenschaften eines messobjektes

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US2121163A (en) * 1933-07-10 1938-06-21 Associated Electric Lab Inc Start-stop distributor system
US2193811A (en) * 1936-02-25 1940-03-19 Western Union Telegraph Co Signaling system and apparatus
US2351014A (en) * 1942-12-30 1944-06-13 Postal Telegraph Cable Co Alarm for synchronous telegraph circuits
US2353055A (en) * 1942-09-19 1944-07-04 Bell Telephone Labor Inc Satellite communication system
US2354534A (en) * 1938-05-17 1944-07-25 Creed & Co Ltd Telegraph system
US2439398A (en) * 1944-02-25 1948-04-13 Bell Telephone Labor Inc Telegraph system provided with channel assurance and transmission regulation
US2465507A (en) * 1945-01-16 1949-03-29 Bell Telephone Labor Inc Intercommunicating teletypewriter system

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DE669121C (de) * 1930-06-13 1938-12-17 Siemens Ag Einrichtung zur selbsttaetigen UEberwachung und Pruefung von Verbindungsleitungen inTelegrafenanlagen durch einen Hin- und Rueckimpuls
DE914982C (de) * 1949-08-14 1954-07-12 Siemens Ag Schaltungsanordnung fuer Fernmelde-, insbesondere Fernsprechanlagen
DE902140C (de) * 1951-04-20 1954-01-18 Lorenz C Ag Einrichtung zum Vergleichen des ausgesandten und des rueckempfangenen Zeichens zweicks Fehlerkontrolle
DE905256C (de) * 1951-05-19 1954-03-01 Siemens Ag Schaltungsanordnung zur Kontrolle des richtigen Empfangs von Schaltkennzeichen in Fernmeldeanlagen, z.B. Fernsprechanlagen, insbesondere fuer Kennzeichenuebertragung ueber drahtlose Strecken

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2121163A (en) * 1933-07-10 1938-06-21 Associated Electric Lab Inc Start-stop distributor system
US2193811A (en) * 1936-02-25 1940-03-19 Western Union Telegraph Co Signaling system and apparatus
US2354534A (en) * 1938-05-17 1944-07-25 Creed & Co Ltd Telegraph system
US2353055A (en) * 1942-09-19 1944-07-04 Bell Telephone Labor Inc Satellite communication system
US2351014A (en) * 1942-12-30 1944-06-13 Postal Telegraph Cable Co Alarm for synchronous telegraph circuits
US2439398A (en) * 1944-02-25 1948-04-13 Bell Telephone Labor Inc Telegraph system provided with channel assurance and transmission regulation
US2465507A (en) * 1945-01-16 1949-03-29 Bell Telephone Labor Inc Intercommunicating teletypewriter system

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2983780A (en) * 1956-11-06 1961-05-09 Siemens Ag Circuit arrangement for interconnecting teleprinter subscriber-networks
US3245038A (en) * 1961-06-30 1966-04-05 Ibm Central to remote communication system with address modification for the remote stations
US3237180A (en) * 1963-03-18 1966-02-22 Specialties Dev Corp Indication repeating apparatus
US3510586A (en) * 1965-01-29 1970-05-05 Int Standard Electric Corp Data transmission systems
US3491337A (en) * 1966-12-05 1970-01-20 Scm Corp Coded message generator

Also Published As

Publication number Publication date
GB803716A (en) 1958-10-29
DE1064552B (de) 1959-09-03
NL107923C (enrdf_load_stackoverflow)
BE549048A (enrdf_load_stackoverflow)
FR1153790A (fr) 1958-03-21

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